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11.6: How Can the Genetic Code be Degenerate and Accurate at the Same Time?

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    The A-T and G-C complementarity in DNA is known as standard Watson-Crick base pairing. Thinking about how a redundant, degenerate genetic code could work, Francis Crick realized that most often, the first and second bases of codons for the same amino acid were fixed, while the third base was variable (except of course, for methionine and tryptophan codons!). In his Wobble Hypothesis, he proposed that the third base in the tRNA anticodon could recognize more than one base in a corresponding mRNA codon because it was able to shift (i.e., wobble) while the other two base pairings were fixed. According to Crick’s hypothesis, the wobble would be due to a real freedom of movement, or flexibility of the third base in the anticodon, allowing the formation of thermodynamically stable non-Watson-Crick base pairs.

    This page titled 11.6: How Can the Genetic Code be Degenerate and Accurate at the Same Time? is shared under a not declared license and was authored, remixed, and/or curated by Gerald Bergtrom.

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